Factors associated with obesity among Saudi women of reproductive age in Jeddah

Background: Previous studies have shown that women who are overweight or obese are at risk for adverse reproductive outcomes, including infertility, gestational diabetes, and hypertensive disorders of pregnancy. However, information surrounding the risk factors for obesity among Saudi women of reproductive age is deficient due to the limited number of studies that assessed obesity prevalence among them. List of Abbreviations: BMI: Body mass index; WC: waist circumference; PHCCs: primary health care centers; PA: physical activity; EHs: eating habits; PSU’s: Primary Sampling Units; PPS: Probabilities Proportional to their Size; IPAQ: International Physical Activity Questionnaire; MET-Min/week: Metabolic Equivalent Task minutes per week; WHO: World Health Organization standards; CVD: cardiovascular disease Volume 3 | Issue 1 Journal of Obesity and Overweight


Introduction
Methods: A cross-sectional study was conducted in 2014 using a stratified two-stage cluster sampling design that consisted of 408 Saudi women (15-49 years) attending 12 JPHCCs.The sampling weight and design effect were incorporated into the analysis.BMI and WC data were collected through previously validated interviews.Additionally, the anthropometric measurements (BMI and WC) were defined according to the WHO criteria.
Obesity, an increasing worldwide trend, constitutes a major health problem [1].The prevalence of obesity has generally found to be higher among women than among men [2].Similarly, the prevalence of obesity in Saudi Arabia has increased, and it is significantly higher in women than men.Based on the latest Saudi National Health Survey (2013), the prevalence of obesity in Saudi Arabia for those 15 years of age and older was significantly higher among women (33.5%) when compared to men (24.1%) [3].An earlier study done in Jeddah City (1994), the most urbanized city in the western part of Saudi Arabia, indicated high rates of overweight and obesity (64.3%, BMI ≥ 25) among adolescent and adult Saudi women between the ages 11 through 70, attending primary health centers in Jeddah City [4].The prevalence of overweight and obesity (52.6%) among Saudi women of reproductive age (16-45 years old) in Riyadh City, Saudi Arabia [5] was similar to results (51%) obtained from national representative data collected over 10 years among all U.S women of reproductive age (15-49years old) [6].
Obesity has become a common issue among Saudi women due to different factors, such as socio-demographic, family history of obesity, and lifestyle factors (e.g.age, marital status, parity, eating habits (EHs), and physical activity (PA)) [3][4][5][7][8][9][10][11][12].Among Saudi women (aged 15 years or older), the latest Saudi National Health Survey found the risk of obesity increased with age, marital status, history of chronic conditions and hypertension [3].In Jeddah City, Western Province of Saudi Arabia, Khashoggi (1994) found five variables were significant predictors for women's obesity (11-70 years): age, marital status, number of servants, childbearing, and parity [4].Among women of reproductive age (15-45 years), Al-Malki (2003) indicated a positive correlation between age and weight, and age and BMI.A significant difference was observed in the results of single (never married) and married women, particularly those who were students; among the single women only 20.5% were overweight, 9.12% were obese, while in married women the frequency increased to 43.0%, and 29% [5].A number of studies in Eastern Mediterranean Region (EMR) countries have shown that the employment status of women is significantly associated with weight gain.These studies showed that working women were less likely to be overweight than non-working women.Furthermore, the rate of obesity in unemployed Saudi women was 79%, compared to 53% in employed women [11].
During the past four decades, EHs in Saudi Arabia have changed markedly, with the changes in lifestyle and reduced PA behaviours.In fact, Western fast food, which has high levels of fat, sugars, sodium, and cholesterol, is now being consumed in large amounts [11,13].Moreover, the Saudi National Nutrition Survey disclosed that eating unhealthy foods (e.g., fried foods, fewer fruits and vegetables) and high-calorie snacks (e.g., cake, donuts, or chips) is becoming a common practice among Saudi people [7].Other eating antecedents in common demonstrated that the obese were less likely to eat at selected times and more often indulged in eating while watching TV.The severely obese groups chose to skip main meals more frequently (P= 0.08), mainly the breakfast meal (62.5%).On the other hand, as a result of fewer main meals, the severely obese group indiscriminately snacked more and ate in secret [14].
Sedentary lifestyles and PA patterns are risk factors associated with obesity.Saudis with increased urbanization, availability of cars, traffic, involvement in office work, and extreme weather, all make PA a difficult choice for Saudis [15,16].According to data from the Saudi National Health Survey (2013) [3], the prevalence of physical inactivity was high among the Saudi population (15 years of age and older), revealing significantly higher levels of inactivity in women (75.1%) than men (47.0%).However, information on the levels of PA and other lifestyle practices in Saudi adult women is lacking, especially among women particularly at risk of weight gain, such as those of reproductive age.BMI is the anthropometric measurement most widely used to assess total body fatness.In addition, it has long been recognized that BMI is a predictor of morbidity and mortality.On account of its simplicity as a measure, it has been used in epidemiological studies and is recommended as a screening tool in the clinical assessment of obesity.Although BMI has been found to be a reliable indicator of total body fat, there are limitations to the use of BMI alone to assess for adiposity in clinical practice, particularly among adults with BMI ≥30 kg/m 2 [17,18].Because of these limitations of BMI, the WHO and several organizations suggest combining the measurements of BMI and waist circumference (WC) to assess obesity-related health risks [19].WC, which is highly correlated with cardiovascular disease (CVD) risk factors, has been shown to be a strong predictor of total body fat, adipose tissue [20][21][22], and obesity-related health risk [19].
The reproductive age is an important feature of monitoring and addressing adverse weight transitions among women, as these transitions will have adverse effects on women's short and long-term health and their children's health [23].However, the literature in Saudi Arabia suggests that current information about risk factors for obesity among Saudi women of reproductive age is not sufficient due to the lack of studies performed to determine obesity risk factors.Most studies focused on the male population, children and adolescents, or on women in the adolescent and college years (under the age of 24 years).Also, most of these studies used BMI rather than WC to determine obesity and its associated factors.As far as it is known, no study has explored the risk factors of obesity among Saudi women of reproductive age in Jeddah City, the most liberal, urban, and diverse city in Saudi Arabia, where the prevalence of obesity is high [4].Therefore, the present study was planned and conducted in Jeddah City using a representative sample of Saudi women (15-49 years) who attended services at JPHCCs, to determine how socio-demographic, parity, family history of obesity, EHs, and PA factors are associated with two types of obesity -general (BMI) and abdominal (WC) obesity.Meeting this need can assist in the development of programs and policies that support national health objectives.
The study was conducted using a cross-sectional stratified two-stage cluster sampling design survey of 408 Saudi women, aged 15-49 years, who attended general clinics at JPHCCs.The sampling procedure aimed to select a representative sample of women who were only seeking services at PHCCs in Jeddah City.Clinics served as Primary Sampling Units (PSU's) and were grouped into four health sector strata.In the first stage, the PHCCs (clusters) were sampled without replacement and selected (12 out of 37 centers) with Probabilities Proportional to their Size (PPS), from the list of PHCCs in survey area.The second sampling stage involved recruitment of women from the selected PHCCs (12 centers) using a systematic sampling procedure from the eligible women attending on days the sampling PHCCs (General Clinics) were visited.The first woman participant who fulfilled the inclusion Methods Sample criteria was invited to enroll in the study.Then, every third attending woman who fulfilled the criteria was selected and soon until completion of the required sample from the PHCC was achieved.However, if a selected woman did not fulfill the inclusion criteria (exclusion criteria) or refused to participate in this study, then selection proceeded to the next sample woman attending the PHCC.Subjects who were pregnant/ lactating and those having serious diseases (e.g., organ failure, transplant, ascites, cancer, and mental illness), were excluded.Sample size was determined by performing an a-priori power analysis to determine the number of participants required to detect a small effect of design (f2 = 0.1) with power = .80,for a multiple regression with 15 predictors and hypothesis tests conducted at α = .05(thepower analysis was conducted with G*Power 3.1.4.).The analysis indicated a sample size of 201 would be sufficient.Then, this was adjusted for clustering by multiplying this sample size by a convenient design effect of 2.0, which indicated that a minimum of 402 women would be sufficient to accurately estimate results for the final sample.However, to selected equal number of the women from the selected health centers (12 centers) we increased the sample size to 408 (34women /12 centers).
Participants were asked to participate in answering the survey questions as volunteers.The informed consent information was distributed to participants before participating in the study.A structured questionnaire (face-to-face interview) was used in the survey to elicit information on the socio-demographic characteristics, medical and history of chronic diseases, obstetric history, EHs, PA, and lifestyle information.
EHs were assessed in the questionnaire by taking a selection of items from the reliable EHs questionnaire [24,25] while others were generated from the literature [7,10,11,14,26,27] with expert advice from nutritionists.The EHs section of the survey consisted of 15 questions (items), which were designed to investigate the actual eating behaviors of the participants in the study (see the appendix, section 4).The items referred to both healthy and unhealthy EHs as well as to behaviors.EHs were operationalized with four variables (EHs section) including: the number of regular meals eaten each day, eating fast food, consuming saturated fat, and overall EHs score.Overall EHs were assessed with a mean composite score of 14 items, which had the following response categories: always, often, sometimes, never.The 7 items of the response categories ranged from always (highest score = 4) to never (lowest score =1) (items from 4.2-4.8),while the scores of other 7 items were reversed (always = 1 and never = 4) (items from 4.9 to 4.15).The total score (56) was divided into tertiles, where the lowest tertile (score ≤33) referred to "inadequate EHs, " the medium tertile (score ≥ 34 to 37) referred to "partially satisfactory EHs" and the highest tertile (score ≥ 38) referred to "satisfactory EHs" [24].The eating habits questionnaire (13items) that were used to determine the overall eating habits score) was piloted with 20 women (from PHCCs in Jeddah City) to test the reliability using Cronbach's alpha coefficient.The value of Cronbach's alpha coefficient for eating habits items was 0.648, indicating an acceptable level of internal consistency [28].

Physical Activity Assessment
Weight and height were measured on a digital scale with stadiometer (Seca 703 medical scale) (Hamburg, Germany).Weight was recorded to the nearest 100gm and height to the nearest 0.1cm.Measurements of participants were collected in a private area (exam room) and instructed them to remove excess clothing, overcoats, Hejab, Abaya, and shoes.BMI was calculated as weight divided by height squared (kg/m 2 ), and was stratified for the purpose of analysis into two categories: non-obese and obese based on World Health Organization standards (WHO) 2012 [36].For adult (≥ 20 years old), non-obese group was defined as BMI< 25kgm 2 , and obese group (overweight/obese) as MBI≥25kgm 2 .For adolescents (≤19 years old), non-obese group was defined as BMI < 85th age-specific percentile, and obese group (overweight/obese) as BMI ≥85th age-specific percentile.Online software was used to calculate BMI age-specific percentile from height, weight, age, and sex data, based on WHO reference populations [37,38].WC was measured at the mid-point between the iliac crest and lowest rib to the nearest 0.1 cm.Then, abdominal obesity was defined as WC>88cm [37].
PA was assessed using the official Arabic short version of the International Physical Activity Questionnaire (IPAQ) [29].IPAQ was subjected to a reliability and validity study carried out in 14 centers in 12 countries during the year 2000, and demonstrated reasonable test-retest reliability (intra-class correlations range 0.7-0.8 and inter-method validity (median r s = .67)[30].The short form of IPAQ (see the appendix, section 5) has been validated and used by numerous studies among the Saudi Arabia adult population [3,[31][32][33][34].The total weekly PA (Metabolic Equivalent Task minutes per week (MET-Min/week)) was calculated by multiplying the number of minutes spent in each activity category (low, moderate, and vigorous levels) with the specific MET score for each activity.The MET intensity values that were used to score IPAQ questions were: vigorous (8 METs), moderate (4 METs) and low (3.3 METs) [35].For descriptive analysis, the PA scoring was categorized as: physically inactivate (low activity <600 MET-min./week), and physically active (sufficient activity ≥600 MET-min./week).
Ethical approval for the study (IRB approval) was obtained from the University of Maryland, College Park (No. 539976-1), and the Ministry of Health -Jeddah Health Affairs Directorate in Saudi Arabia (No. A00118).Prior to the interview, each woman was asked to read and sign a consent form, which stated the purpose of the study, that participation was voluntary, and that women's responses were to be kept confidential.

Ethical approval
Multiple regression (using the SPSS subprogram CSGLM) and a binary logistic regression (using the SPSS subprogram CSLOGISTIC) were conducted to determine if the socio-demographic, parity, family history of chronic disease, EHs and PA were significant predictors of participants' obesity as measured by BMI and WC, respectively (Table 1).A p value < .05 was considered statistically significant.Age, years of education, parity, number of meals, EHs and PA were all continuous variables; occupation, marital status, income, family history of chronic disease, eating fast food, and consumed saturated fatty food were categorical.For categorical variables that have more than two levels, reference groups were assigned and dummy variables were created for the analyses.Moreover, descriptive statistics (using the SPSS subprogram CSDESCRIPTIVES) were used to describe the characteristics of the study population including mean, standard error, frequency, and percentage.Chi square tests (using the SPSS subprogram CSTABULATE) or t tests (using the SPSS subprogram CSGLM) were used to examine the associations between participant's characteristics and obesity status.In the logistic regression and Chi square analysis, the BMI levels (dependent variable) were divided into two groups: obese (BMI≥ 25kg/m 2 ) and non-obese (BMI< 25kg/m 2 ).
All analyses were based on the complex sampling design using the SPSS Complex Samples Software (Version 23.0).The complex sample design was accounted for in all analyses through the use of a sampling weight to account for unequal chances of selection, a sampling error stratum and sampling error computing unit (clinic), and a Taylor Series Linearization (TLS) method for variance estimation.Table 3 shows the socio-demographic characteristics and lifestyle factors of the study participants.The mean age' (mean ± SE) of study participants was 30.27 ± 0.74, and the majority of the women were in the age group of 20-35 years (51.4%),married (64%), housewives (53.4%), had more than a high school diploma (54.2%), and belonged to low (39.1%) or middle (52.8%) income levels.Thirty-two percent of the women showed "satisfactory EHs, " and 65% of them engaged in moderate PA.A binary logistic regression was run to determine the effect of socio-demographic and lifestyle factors on risk of developing overweight and obesity (BMI) (Table 4).Overall, the analysis produced a significant model, Wald F (15) = 116.70,p< 0.001, that correctly classified 74.7% of the cases, performing better in predicting obesity (82.6% correctly predicted) than non-obesity (61.2%).The model accounted for between 24.4% (Cox and Snell) and 33.3% (Nagelkerke) of the variance in obesity.The analysis showed that only four risk factors (predictors), were significantly associated with overweight and obesity as measured by BMI: age (years), family history of obesity, eating fast food, and eating habit score: odds ratios (ORs) of 1.10 (95% CI 1.05-1.14;P < .001),4.6 (95% CI 1.60-13.4;p= 0.002), 3.3 (95% CI 1.40-7.86;p= 0.002), and 1.08 (95% CI 1.01-1.16;p = 0.015), respectively.Women with family histories of obesity were 4.6 times more likely to be obese than those without family histories of obesity.Women with fast food habits were 3.3 times more likely to be obese than those without fast food habits.Each year increase in age is associated with a 10 % increase in the likelihood of being obese.Each point increase on the eating habit scores is associated with an 8% increase in the likelihood of being obese.

Multiple linear regression analysis and abdominal obesity (WC) risk factors
A multiple linear regression was conducted to determine the association between the risk factors and the risk to developing abdominal obesity (WC).The analysis produced a significant model, Wald x 2 (15) = 304.0,p< 0.001 and accounted for 39.7 % of the variance in women's WC (R 2 = 0.397).The analysis showed that seven risk factors (predictors), were significantly associated with abdominal obesity (WC) (Table 5).
This model indicates positive associations between age (years), EHs, hours sitting, and abdominal obesity (WC).In contrast, the analysis showed that there were negative association between income status, occupation status, number of meals, and having a family history of obesity, and abdominal obesity (WC).Each additional year of age was associated with an increase of 0.63 cm in WC [95% CI= 0.37 to 0.89], and each additional point on the EHs scale was associated with an increase of 0.41cm in WC [95% CI= 0.14 to 0.68].Each additional one-hour sitting was associated with an increase of 1.04 cm in WC [95% CI= 0.18 to 1.9].Women Students have lower WC compared to housewives and employed women (B= -3.66 [95% CI= -6.62 to -0.69]), as well as women in higher-income levels have lower WC compared to women in low-and middle-income level women (B= -4.74 [95% CI= -9.53 to 0.53]).Each additional meal was associated with a decrease of 2.9 cm in WC [95% CI= -4.84 to -0.95].Women without family histories of obesity have lower WC compared to women with family histories of obesity (B= -9.32 [95% CI= -13.40 to -5.24]).Based on the WHO classifications, our findings on general obesity (BMI≥30) among women of reproductive age are higher than those of the WHO publication for the Eastern Mediterranean Region [39], which reports a prevalence of obesity of 24%, compared with 33.5% in our sample.Our study rates of overweight and obesity (29.5% and 33.8%, respectively) are comparable to those reported by the latest National Saudi Health Information Survey (SHIS) (aged ≥16 years) (28% and 33.5%, respectively) [3], lower than those reported by Al-Nozha et al. (2005) (31.8% and 44%, respectively), and higher than those estimated by Al-Othaimeen et al., (2007) (28.4 % and 23.4%, respectively) in women 30-70 years old [9,7].

Prevalence of general and abdominal obesity
In terms of abdominal obesity (WC), there were a limited number of studies that examined the prevalence of abdominal obesity among Saudi women, specifically in reproductive age women.Comparing our rate of abdominal obesity (25.1%) to two previous national surveys by Al-Saif et al. (2002) and Al-Nozha et al., (2005) among women in aged 30-70 years using WC cut-off point (>88cm), indicated that their rates in women (66.1%, and 55.2% respectively) were much higher than our rates [40,41].Also, our rate of abdominal obesity was lower than that of some other Middle East countries (≥20 years of age), such as, Kuwait (≥20 years of age), and Iran (≥15-65 years of age) (59.7% & 53.2% respectively) [42,43].
Overall, multivariate regression analyses revealed that more predictors were associated with abdominal obesity than general obesity (overweight/obese).One factor that could lead to detection of more significant predictors was the choice to model WC continuously.Despite the high number of predictors, we found significant association with abdominal obesity; the two models had approximately equal explanatory or predictive power.The predictors in the linear regression model explained 39.7% of the variation in abdominal obesity, while in logistic regression explained between 24.4% (Cox & Snell) and 33.3% (Nagelkerke) of the variation in general obesity.

Discussion
Among the four eating habit indicators, EHs score was a significant positive predictor for both types of obesity, eating fast foods was a significant positive predictor of general obesity, eating three meals per day was a significant positive predictor of abdominal obesity, while no significant association was found between consuming saturated fats and either type of obesity.Surprisingly, the significant positive associations between the EHs score and both types of obesity indicate that obese women have more good EHs than non-obese women.This finding differs from those of many other studies conducted in Saudi Arabia [10,47,52] and in Gulf countries [11].However, the present paper found that women with high eating habit scores were more likely to be old, have medical health problems, and be less active than women with lower and medal scores.More than half of the women in the age group above 35 years reported medical health problems.Nearly, 91.6% of women who had diabetes, 92% of the women who had hypertension, and 87% of the women who had high cholesterol levels were obese.These women may be concerned about their EHs in order to reduce their weight and achieve related health goals, and therefore have higher eating habit scores.Also, women suffering from chronic health problems are more likely to receive health education from the health centers, which may improve their healthy eating knowledge, but does not seem to have the desired impact on PA.We found 31.2% (n=59) of the women with satisfactory EHs had low PA.This finding was consistent with a previous study that examined the inter-relationship between dietary habits, PA and health education provided at the PHCCs in the Qassim region of Saudi Arabia [53].That study demonstrated that health education provided at the PHCC had a positive impact on dietary practices, but was not associated with increased PA.To be most effective in the long run, PHCC education programs should focus on promoting healthy eating as well as encouraging sustainable PA.
Most of the cross-sectional studies in free-living adults show an inverse relationship between eating frequency and adiposity [54].The results of this study support these findings.We found a significant decrease in the risk of abdominal obesity with increasing number of meals in study population.Women who ate three main meals had lower WC than the women ate one or two meals per day.In a cross-sectional study on 7,958 Iranian adults, irregular meal pattern was also associated with greater odds of obesity.After adjustment for potential confounders, individuals with irregular meal patterns were more likely to have general and abdominal obesity, compared with those who had a regular meal pattern (ate 3 main meals per day) [55].Numerous studies have established that low meal frequency is associated with higher 24-hour insulin concentrations when compared with high meal frequency.Eating multiple meals may suppress hunger and overall serum insulin concentrations.Furthermore, insulin inhibits lipolytic activity and increases fat deposition.As insulin is related to fatty acid storage, meal frequency may be one of the factors affecting body weight [56].
Scientific evidence indicates that fast food consumption is associated with higher total energy intake, as well as with weight gain and obesity [57].In this study, a positive and significant association between fast food consumption and general obesity was confirmed among study population.Women who consumed fast food at least one a week were three more times as likely to be obese than those who had not.A cross sectional study among Michigan adults in the USA found a strong association between fast-food consumption and obesity prevalence; regular consumers of fast food had odds of being obese that were 60% to 80% higher than those for people who ate fast food less than once per week [58].Overall, the prevalence of fast food among Michigan adults was lower than our rate, 28% and 84.7% respectively.Another study among 320 Kuwait college students found that regular consumption of fast food was the most significant predictor of obesity (OR 3.3, 95% CI:1.3-8.9)(59).A cross-sectional study conducted to examine the pattern of fast food consumption among university students (18 to 25 years old) in King Faisal University, Al-Hassa, Saudi Arabia, using a logistic regression model, indicated a significant association between obesity/overweight and consuming fast food two or more times per week (OR=3.072,95% CI: 1.107-8.523)[60].The percentage of those who consume fast food more than twice a week (47.1%) was higher than in the present study (38.2%).Globalization and westernization have contributed to the spread of fast food outlets in Saudi Arabia and home delivery services provided by fast food restaurants have contributed to a rise in the consumption of fast foods [61].
Results from chi-square and the multivariate regression analyses confirmed the association between age, family history of obesity, and both types of obesity (dependent variables) in the study population.This finding has been found by other studies as well.Not surprisingly, age, which is related to marital status and parity, was a significant predictor of obesity in the study population.Among adult women (25-54years old) in Nairobi Province, Kenya, age was the most significant predictor of general and abdominal obesity [44].A similar finding has been observed among both Jordanian women (aged 15-49 years) [45] and Iranian women (aged 35-57 years) [46].Furthermore, in accordance with our results, family history of obesity has been recognized as an important predictor of obesity in several studies in Saudi Arabia [10,47], Jordon [48], and Iran [49].A family history of obesity reflects the effects of shared genetics and environment among close relatives.Families cannot change their genes; however, they can change their family environment to encourage healthy EHs and PA behaviors.Such changes can improve the health of family members and improve the family health history of the future generation [50,51].
The present study found age, family history of obesity, and EHs were significant predictors for both general and abdominal obesity, while fast food habit was a predictor for general obesity only.In terms of abdominal obesity alone, not having a family history of obesity, being a student, being in higher-income level, and eating three main meals had significant negative associations with abdominal obesity, while age, EHs, and hours sitting had significant positive associations with abdominal obesity.Education, marital status, parity, and consuming saturated fat were not significant predictors of either type of obesity.
Lack of PA and sedentary behaviors are a major risk factor for obesity and many adverse health outcomes.A strong association between lack of PA and general and abdominal obesity has been observed in adolescents, males (n=1400) and females (n=1506) aged 14-19 years from three cities in Saudi Arabia (Al-Khobar, Jeddah and Riyadh) [52].Data from the latest Saudi National survey found an association between general obesity and PA in men but not in women [3].In the present study, we did not find any association between PA and the two types of obesity among the study population.However, we found positive significant association between times sitting and abdominal obesity.Women who sit more hours per day were at higher risk to have a large WC than women who sit fewer hours per day.The mean WC for women who sit 6 or more hours per day was much higher than for those who sit less than 6 hours (92.7 cm and 79.4 cm, respectively).Moreover, 87.6% of the women spent their time each day in sedentary behaviors (e.g.watching TV, phone, and computer use), and 99.2% of them used a car for transportation.Sedentary behaviors have also been shown to be independently associated with overweight and obesity.For example, in a population-based sample of Australian adults (n=11,247, aged≥ 25 years), a linear regression analysis showed that sitting time and TV viewing time were deleteriously associated with BMI, WC, and several biomarkers of cardio-metabolic risk in both women and men [63].The link between sedentary behaviors and obesity are reduced leisure-time PA and increased energy intake [64].In our study, women who spent more time sitting (≥ 6hours/day) tended to be less activity than those sitting fewer hours (Mean METs min/week: 467 vs 1050, respectively).
Notable strengths of the study include the study design, study population, and a representative sample with a high response rate (96.2%) to participate in the study.The study was selected from the most urbanized, liberal, diverse city in Saudi Arabia, Jeddah City.The sample was drawn from a large population to update the data on the prevalence of general (BMI) and abdominal (WC) obesity, and provide new data on factors associated with these two types of obesity.Moreover, taking a complex sample approach using specialized software resulted in unbiased parameter estimates, as well as robust standard errors that accurately reflect the variability in the population of interest.
An additional strength is that this is one of the first studies to examine risk factors associated with obesity among Saudi women of reproductive age in Jeddah City, as well as the first study that used combination measurements of WC and BMI categories to identify obesity risk factors among these women.It has been established that WC predicts obesity-related health risk, and the weighted evidence indicates that the addition of WC to BMI predicts a greater variance in health risk than does BMI alone [18].At the same time, we are also aware of major limitations: this survey is cross-sectional; therefore, cause-and-effect cannot be determined for the associations between BMI or WC and their risk factors.Many of our behavioral data, such as EHs and PA, are self-reported and subject to reporting and social desirability biases.
The findings of the present study provide evidence that the prevalence of overweight, obesity, and abdominal obesity were remarkably high in non-pregnant Saudi women of reproductive age attending Jeddah PHCs.The present study found age, family history of obesity, and EHs were significant positive predictors for both general and abdominal obesity, while fast food habit was a significant positive predictor for general obesity only.Being a student, being in a higher-income level, and eating three main meals were the three factors with significant negative associations with abdominal obesity, while hours of sitting had significant positive associations.Education level(years), marital status, parity, and consuming saturated fat were not significant predictors of either type of obesity.Moreover, we found a significant association when using chi-square test between both types of obesity and age, parity, medical health problems, and family history of obesity.Our results highlight the need for further attention to

Conclusion
The association between socioeconomic status (SES) and obesity varies depending on each country's level of development and the SES indicators that are used [62].In terms of indicators of socioeconomic status, such as income, occupational status, and years of education, we found associations between some of these indictors and abdominal obesity, but not with general obesity.Our study indicated a significant inverse association between abdominal obesity and income level.This finding was inconsistent with the findings of Al-Nozha et al. (2005) and Al-Saife et al. (2002) in Saudi women aged 30-70 years old; Al-Nozha indicated that income was a significant positive predictor of abdominal obesity and Al-Saife found an association with general obesity [41,40].In our study, women at higher-income levels had lower mean WC compared to women at low-income levels, 76.7cm and 80.7cm respectively These findings could be due to women at higher-income levels being more active and having higher EHs score (healthy EHs) than women at low-income levels (PA means: 1440 vs 920 MET-Min/week, respectively; EHs score means: 39 vs 36, respectively).According to occupation status, we found that housewives were more likely to have abdominal obesity than students.In fact, high proportions of those housewives were less active, married, and had more children compared to students.In terms of education, data from the latest Saudi National survey found that high education level was associated with deceased risk of general obesity [3].Khalid (2007) found a significant negative relationship between educational level and abdominal obesity among 438 currently married non-pregnant women (aged 18-60 years) in Abha City, Saudi Arabia [8].However, the present study did not indicate any association between education and the two types of obesity.This may due to the fact that the majority of women in our study were educated (69%), and had high school diploma or higher level of education, while the majority of the women in Khalid study were less educated; 81% of them had less than a high school diploma.
the health and wellbeing of women of reproductive age in order to prevent the epidemic of obesity and related health problems.Health service providers should adopt, implement, and monitor policies that support healthy weight before and weight gain during pregnancy, and post natally through primary care physicians and obstetricians/gynecologists.An effective national obesity prevention strategy is needed and should start early, in the younger age groups, including health education regarding healthy EHs, avoiding high calorie fast-foods, encouraging PA, and reducing sedentary behaviors.Furthermore, healthcare practitioners should routinely collect family health histories to help to identify people at high risk of obesity-related diseases, and should therefore utilize every opportunity to include direct family members at risk in health education.An intervention that includes individuals at high-risk for developing obesity-related diseases and their families to promote lifestyle changes in their diet and PA is, therefore, a rational strategy that will contribute to the control and prevention of overweight and obesity-related health diseases in the reproductive age group.
Submit your next manuscript to Annex Publishers and benefit from: Submit your manuscript at http://www.annexpublishers.com/paper-submission.php→ Easy online submission process → Rapid peer review process → Open access: articles available free online → Online article availability soon after acceptance for Publication → Better discount on subsequent article submission → More accessibility of the articles to the readers/researchers within the field 63.Thorp AA, Healy GN, Owen N, Salmon J, Ball K et al. (2010) Deleterious associations of sitting time and television viewing time with cardiometabolic risk biomarkers: Australian Diabetes, Obesity and Lifestyle (AusDiab) study 2004-2005.Diabetes Care 33: 327-34.64.Shields M, Tremblay MS (2008) Sedentary behaviour and obesity.Health Rep 19: 19-30.

P value e P value d Mean ± SE c n(%) b Variables BMI (dependent variables in logistic regression)
Predictors used in logistic and multiple linear regression models; b Percentage may not total to 100% due to rounding; c mean ± standard error, d p value for logistic regression model, e p value for multiple linear regression model, *significant p=<.05.
BMI: Body mass index; WC: waist circumference.a

Table 1 :
Potential predictors and dependent variables included in regression models a among non-pregnant Saudi women of reproductive age residing in Jeddah city, Saudi Arabia (n=408)

Table 2
shows the anthropometric characteristics of the study participants and the prevalence of general (BMI) and abdominal (WC) obesity Based on the WHO criteria.

Table 2 :
Body mass index; WC: waist circumference; kg: kilogram; m 2 : meter square; cm: centimeter; SE: stander error; a Percentage may not total to 100% due to rounding, b Mean and ± standard error.Anthropometric characteristics of non-pregnant Saudi women of reproduction age residing in Jeddah city, Saudi Arabia (n=408)

Table 3 :
Percentage may not total to 100% due to rounding; b mean ± SE, c total Metabolic Equivalent-minutes/ week.Socio-demographic characteristics and lifestyle factors in non-pregnant Saudi women of reproduction age residing in Jeddah city, Saudi Arabia (n=408)

Table 4 :
Logistic regression model of general obesity (BM) risk factors in non-pregnant Saudi women of reproduction age residing in Jeddah city, Saudi Arabia (n=408)

Table 5 :
Multiple-linear regression model of abdominal obesity (WC) risk factors in non-pregnant Saudi women of reproduction age residing in Jeddah city, Saudi Arabia (n=408) a Only significant factors are presented.